新生大鼠对急性低氧呼吸反应的成熟过程。
Maturation of the respiratory response to acute hypoxia in the newborn rat.
作者信息
Eden G J, Hanson M A
机构信息
Department of Physiology and Biochemistry, University of Reading, Whiteknights.
出版信息
J Physiol. 1987 Nov;392:1-9. doi: 10.1113/jphysiol.1987.sp016765.
Abstract
- We used a non-invasive method to measure the breathing of conscious newborn rat pups continuously and studied the maturation of the respiratory response to reductions in inspired O2 fraction (FI,O2) from 0.21 to 0.15, 0.12 or 0.08 for 6 min. Newborn rats, like many other species, showed a "biphasic" respiratory response, ventilation (VE) increasing during the first 1-2 min of hypoxia (phase 1) and then falling towards control, or below it, over the next 4 min (phase 2). 2. The secondary fall in VE decreased with age up to 14 days. The presence of a significant fall in VE in phase 2 depended on the FI,O2 to which the pups were exposed acutely; the lower the FI,O2 the greater the age at which a biphasic VE response was observed. 3. Our results are discussed in terms of two opposing components which determine VE during acute hypoxia in the neonate: (a) a fast arterial chemoreceptor-mediated stimulation of VE and (b) a slower central nervous component which inhibits VE, possibly a persistence of a suprapontine mechanism which inhibits fetal breathing movements during hypoxia in utero. Both of these components undergo maturation after birth.
摘要
- 我们采用一种非侵入性方法持续测量清醒新生大鼠幼崽的呼吸,并研究其对吸入氧分数(FI,O2)从0.21降至0.15、0.12或0.08并持续6分钟时呼吸反应的成熟过程。新生大鼠与许多其他物种一样,表现出“双相”呼吸反应,即在低氧的最初1 - 2分钟内通气量(VE)增加(第1阶段),然后在接下来的4分钟内降至对照水平或低于对照水平(第2阶段)。2. 直到14日龄,VE的继发性下降随年龄增长而减少。第2阶段VE显著下降的出现取决于幼崽急性暴露时的FI,O2;FI,O2越低,观察到双相VE反应的年龄越大。3. 我们根据决定新生儿急性低氧时VE的两个相反成分来讨论我们的结果:(a)快速的动脉化学感受器介导的VE刺激,以及(b)较慢的中枢神经成分,它抑制VE,可能是一种脑桥上机制的持续存在,该机制在子宫内低氧时抑制胎儿呼吸运动。这两个成分在出生后都会成熟。
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